Sampling Resolution and Gain Controller for a Wireless Receiver

1. A sampling resolution controller for an analog to digital converter in a receiver coupled to an analog signal source, the analog signal source comprising a preamble followed by a plurality of OFDM symbols from a first set of subcarrier frequencies associated with a first zone and a second set of subcarrier frequencies associated with a second zone, said analog to digital converter coupled to a baseband processor, the baseband processor distinguishing said preamble interval and each said OFDM symbol interval, said baseband processor also distinguishing said first set of subcarrier frequencies associated with said first zone from said second set of subcarrier frequencies associated with said second zone in said OFDM symbols by examination of the subcarriers therein; said sampling resolution controller having a higher than nominal sampling resolution during a symbol which has said second set of subcarriers, and said nominal sampling resolution at other times; where at least one of said OFDM symbols contains either a subset of said first set of subcarrier frequencies, a subset of said second set of subcarrier frequencies, or a mixture of subsets of said first set of subcarrier frequencies and said second set of subcarrier frequencies, for which a gain control value is determined at the end of the current symbol for use in a subsequently received symbol.

2. The sampling resolution controller of claim 1 where said nominal sampling resolution is less than 12 bits.

3. The sampling resolution controller of claim 1 where said higher than nominal sampling resolution is 12 bits or more.

4. The sampling resolution controller of claim 1 where said nominal sampling resolution is 10 bits.

5. The sampling resolution controller of claim 1 where said higher than nominal sampling resolution is 12 bits.

6. The sampling resolution controller of claim 1 where the resolution difference from said higher than nominal sampling resolution and said nominal sampling resolution is 2 bits.

7. The sampling resolution controller of claim 1 where said baseband processor examines the samples during said preamble interval and generates a gain control value after the end of said preamble interval.

8. The sampling resolution controller of claim 1 where said baseband processor examines the samples during said symbol interval and generates a gain control value after the end of said symbol interval.

9. A gain controller for a receiver having a variable gain amplifier with an input coupled to an analog signal source, the output of the variable gain amplifier coupled to an analog to digital converter, said analog signal source comprising a preamble followed by a plurality of OFDM symbols, said OFDM symbols having subcarriers from a first transmitter in a first zone and also subcarriers from a second transmitter operative in a different zone than said first zone, said analog to digital converter coupled to a baseband processor, the baseband processor distinguishing said preamble interval and said OFDM symbol interval, said baseband processor also distinguishing said subcarriers from said first zone and said subcarriers from said different zone for each said OFDM symbol; said baseband processor examining said analog to digital samples during said preamble interval to generate a gain control value after the end of said preamble interval and also at the end of each said OFDM symbol; where said subcarriers from said first transmitter and subcarriers from said second transmitter are distinct; and where at least one of said OFDM symbols contains either a subset of said subcarriers from said first zone, a subset of said subcarriers from said different zone, or a mixture of subsets of said first zone subcarriers and said different zone subcarriers, for which a gain control value is determined at the end of the current symbol for use in a subsequent symbol.

10. The gain controller of claim 9 where the set of said first transmitter subcarriers and the set of said different transmitter subcarriers are disjoint during each said symbol.

11. The gain controller of claim 9 where said analog signal source contains MIMO symbols.

12. The gain controller of claim 9 where said first zone or said different zone is at least one of FUSC (Fully Used Sub-Carrier) or PUSC (Partially Used Sub-Carrier).

13. The gain controller of claim 9 where said gain control value is applied to said variable gain amplifier.

14. The gain controller of claim 9 where said baseband processor forms said gain control value from said preamble interval and at least one said symbol interval.